CN113440407B

CN113440407B - Health-care vibration moxibustion adjustable massager

Info

Publication number: CN113440407B
Application number: CN202110725469.1A
Authority: CN
Inventors: 何银萍
Original assignee: Heshihaosheng (beijing) International Traditional Chinese Medicine Research Institute
Current assignee: Heshihaosheng (beijing) International Traditional Chinese Medicine Research Institute
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2022-11-01
Anticipated expiration: 2041-06-29
Also published as: CN113440407A

Abstract

The invention relates to the field of warm moxibustion, in particular to a vibration warm moxibustion adjustable massager for health care. The technical problem of the invention is that: provides a vibration warm moxibustion adjustable massager for health care. The technical scheme is as follows: a vibration moxibustion adjustable massager for health promotion comprises a top plate, a moxibustion ash collecting component and a massage component; a moxibustion ash collecting component is arranged below the top plate; the middle lower part of the moxibustion ash collecting component is rotatably connected with the massage component. When the moxa stick dust collector is used, the vibration position can be indirectly changed without a moving device, smoke is ensured to be fully contacted with the vibration position of skin, the smoke is filtered and then discharged, indoor air is prevented from being polluted, dust generated by moxa stick combustion is automatically removed and collected in time, the moxa stick dust is prevented from falling onto the skin of a person to be treated with physical therapy, meanwhile, the moxa stick dust can not flow out of the device in the process that a worker moves the device, the height of the moxa stick combustion position is kept unchanged, and therefore the temperature is ensured to be relatively stable.

Description

Health-care vibration moxibustion adjustable massager

Technical Field

The invention relates to the field of warm moxibustion, in particular to a vibration warm moxibustion adjustable massager for health care.

Background

Warm moxibustion is in the scope of acupuncture, but rather than acupuncture, it is done by burning the heat of moxa wool. The traditional Chinese medicine believes that the folium artemisiae argyi has the effects of dredging channels and collaterals, warming channels to stop bleeding, dispelling cold to relieve pain, preserving health and protecting health. According to Western medicine analysis, the folium artemisiae argyi contains volatile oil which mainly comprises the main components of wormwood alcohol and cool Ai Tong and has the effects of relieving fever, stopping bleeding and easing pain. The antioxidant substances generated by burning moxa stick are attached to skin at acupuncture points, and permeate into human body by moxibustion heat, so as to remove free radicals.

Among the prior art, one of them physiotherapy mechanism can use the moxa stick to carry out the warm moxibustion operation to client, when using current device to carry out the warm moxibustion operation, the ash that the moxa stick burning produced can drop to client's skin surface, and skin is sweat after being heated, the moxa stick ash passes through the sweat and glues on the skin surface, part moxa stick ash temperature is high simultaneously, the scald phenomenon can appear after dropping to skin, seriously influence client's physiotherapy experience, and simultaneously, in the combustion process, the combustion position of moxa stick can slowly rebound, lead to the temperature reduction of conduction to skin surface, seriously influence the physiotherapy effect, furthermore, when current warm moxibustion device carries out vibration massage operation to client, the position of unable automatic change massage, make the unable abundant contact skin massage position of moxa stick flue gas, greatly reduced physiotherapy effect, furthermore, current device directly discharges the moxa stick flue gas to the air in, seriously influence room air quality.

In conclusion, there is a need to develop a vibration moxibustion adjustable massager for health care to overcome the above problems.

Disclosure of Invention

In order to overcome the defects that when the existing device is used for moxibustion, ash generated by burning of moxa sticks can fall to the surface of the skin of a customer, the skin sweats after being heated, the moxa sticks are adhered to the surface of the skin through sweat, meanwhile, the temperature of partial moxa sticks is high, the phenomenon of scalding can occur after falling to the skin, the physical therapy experience of the customer is seriously influenced, and meanwhile, in the burning process, the burning position of the moxa sticks can slowly move upwards to reduce the temperature conducted to the surface of the skin and seriously influence the physical therapy effect, in addition, when the existing moxibustion device is used for vibration massage operation on the customer, the massage position cannot be automatically changed, so that the smoke of the moxa sticks cannot fully contact with the skin massage position, the physical therapy effect is greatly reduced, in addition, the existing device directly discharges the smoke of the moxa sticks into the air, and seriously influences the indoor air quality, the technical problem of the invention is that: provides a vibration warm moxibustion adjustable massager for health care.

The technical scheme is as follows: a vibration moxibustion adjustable massager for health care comprises a top plate, a temperature adjusting component, a moxibustion ash collecting component, a massage component, a control button, a first protecting ring, a first connecting ring, a first limiting ring and a second limiting ring; a moxibustion ash collecting component is arranged below the top plate; the upper surface of the top plate is connected with a control button; the outer ring surface of the top plate is connected with a first connecting ring; the middle lower part of the moxibustion ash collecting component is connected with the massage component; the outer ring surface of the upper part of the first connecting ring is connected with a first protective ring; the lower part of the first connecting ring is connected with a first limiting ring; a temperature adjusting component is arranged below the first limiting ring; the lower part of the temperature adjusting component is provided with a second limiting ring; the lower part of the temperature adjusting component is connected with the massage component; the temperature adjusting component can adjust the temperature; the moxa stick ash collecting component can collect moxa stick ash and keep the temperature relatively stable; the massage component can massage the skin and make the smoke fully contact with the skin.

Further, the temperature adjusting assembly comprises a first ventilation ring, a second ventilation ring and a first friction ring; a first ventilation ring is connected below the first limiting ring; a second vent ring is connected below the first limiting ring; the outer surface of the first ventilation ring is connected with the second ventilation ring; the outer surface of the lower part of the first ventilation ring is connected with a second limiting ring; the lower surface of the first ventilation ring is connected with the massage component; the outer surface of the upper part of the second ventilating ring is connected with a first friction ring; the lower surface of the second ventilating ring is connected with the second limiting ring.

Furthermore, the moxibustion ash collecting component comprises a first motor, a first spline shaft, a first linkage block, a first electric push rod, a first drive disk, a second drive disk, a first electric slide rail, a first slide block, a first linkage ring, a first spring, a first electric clamp, a second linkage block, a third linkage block, a first limiting rod, a second spring, a first limiting block, a first accommodating block, a first electric multi-stage telescopic rod, a fourth linkage block, a second limiting block, a first supporting frame, a fourth connecting block, a second supporting frame and a first connecting rod; the lower surface of the front part of the top plate is connected with a first supporting frame; the lower surface of the front part of the top plate is connected with a fourth connecting block; the fourth connecting block is positioned at the rear side of the first supporting frame; the upper part of the first support frame is connected with a first motor; the upper part of the first support frame is connected with a first spline shaft; the output end of the first motor is connected with the first spline shaft; the upper part of the first support frame is connected with a first electric push rod; the first electric push rod is positioned above the first spline shaft; the front part of the first electric push rod is connected with a first support frame; the lower part of the fourth connecting block is connected with a first spline shaft; the middle part of the fourth connecting block is connected with a first electric push rod; the outer surface of the first spline shaft is connected with a first linkage block; the outer surface of the middle part of the first spline shaft is connected with a first transmission disc; the outer surface of the rear part of the first spline shaft is connected with a second transmission disc; the outer surface of the first spline shaft is connected with a massage component; the rear part of the first electric push rod is connected with a first linkage block; the lower surface of the right part of the top plate is connected with a second support frame; the left side of the second support frame is connected with a first electric slide rail; the lower part of the second supporting frame is connected with a first accommodating block; a first sliding block is connected inside the first electric sliding rail; the left side of the first sliding block is connected with a first linkage ring; two groups of first springs are connected to the inner ring surface of the first linkage ring; the first linkage ring is connected with two groups of first limiting rods; the lower surface of the first linkage ring is connected with two groups of second springs; two groups of first springs are connected with a first electric clamp at opposite sides; the upper rear part of the first electric clamp is connected with a second linkage block; the upper front part of the first electric clamp is connected with a third linkage block; the lower parts of the two groups of first limiting rods are connected with first limiting blocks; a first limiting block is connected below the two groups of second springs; the inner side of the first accommodating block contacts the first limiting block; the lower surface of the left part of the top plate is connected with a first connecting rod; the right side of the lower part of the first connecting rod is connected with a first electric multi-stage telescopic rod; the right side of the first electric multi-stage telescopic rod is connected with a fourth linkage block; the front side of the fourth linkage block is connected with a second limiting block.

Further, the massage component comprises a first transmission wheel, a second transmission wheel, a first transmission rod, a third transmission wheel, a fourth transmission wheel, a second transmission rod, a third transmission disc, a fifth linkage block, a first screw rod, a third spring, a first connecting block, a first ventilation block, a sixth linkage block, a first linkage frame, a first pressing block, a second connecting block, a third connecting block, a first linkage rod, a second limiting rod, a third limiting block, a seventh linkage block, a third limiting rod, a fourth spring, a first friction block, a third ventilation ring, a first rubber ring, first filter paper and a third limiting ring; the middle part of the first support frame is connected with a first transmission rod; the outer surface of the rear part of the first transmission rod is connected with a second transmission wheel; the outer surface of the front part of the first transmission rod is connected with a third transmission wheel; the second transmission wheel is connected with a first transmission wheel through a belt in a transmission way; the first transmission wheel is internally connected with a first spline shaft; the third transmission wheel is connected with a fourth transmission wheel through belt transmission; the lower part of the first support frame is connected with a second transmission rod; the inside of the fourth driving wheel is connected with a second driving rod; a third transmission disc is connected to the rear side of the second transmission rod; a fifth linkage block is contacted below the third transmission disc; a first screw rod is connected below the fifth linkage block; a third spring is connected below the fifth linkage block; the outer surface of the upper part of the first screw rod is connected with a first connecting block; the outer surface of the middle part of the first screw rod is in transmission connection with a sixth linkage block; the outer surface of the lower part of the first screw rod is connected with a first linkage frame; a first connecting block is connected below the third spring; a first ventilation block is connected below the first connecting block; the outer ring surface of the first ventilation block is connected with a third ventilation ring; the lower surface of the first ventilation block is connected with a second connecting block; the outer surface of the sixth linkage block is connected with a second connecting block; the outer surface of the lower part of the sixth linkage block is connected with two groups of seventh linkage blocks; a plurality of groups of first pressing blocks are connected below the first linkage frame; the side surface of the second connecting block is connected with a third connecting block; the lower part of the third connecting block is connected with a first linkage rod; the upper part of the third connecting block is connected with a third limiting block; the outer surface of the first linkage rod is connected with a second limiting rod; the upper part of the second limiting rod contacts the third limiting block; two groups of third limiting rods are respectively connected with the inner parts of the two groups of seventh linkage blocks; two groups of fourth springs are connected below the two groups of seventh linkage blocks respectively; first friction blocks are connected below the two groups of third limiting rods respectively; the lower parts of the two groups of fourth springs are respectively connected with a first friction block; the lower part of the third vent ring is connected with a first rubber ring; the inner ring surface of the third vent ring is connected with first filter paper; and the inner ring surface of the third vent ring is connected with a third limiting ring.

Furthermore, a circular opening is formed in the middle of the first accommodating block.

Furthermore, the upper surface of the second limiting block is a conical surface, and the diameter of the lower surface of the second limiting block is larger than that of the circular opening in the middle of the first accommodating block.

Further, the first pressing block is made of rubber.

Furthermore, a plurality of groups of vent holes are arranged on the side surface of the third vent ring.

Compared with the prior art, the invention has the following advantages: 1. in order to solve the problems that when the existing device is used for moxibustion, ash generated by burning of a moxa roll can fall to the skin surface of a customer, the skin sweats after being heated, the moxa roll ash is adhered to the skin surface through sweat, meanwhile, the temperature of part of moxa roll ash is high, the phenomenon of scalding can occur after the moxa roll ash falls to the skin, the physical therapy experience of the customer is seriously influenced, meanwhile, in the burning process, the burning position of the moxa roll can slowly move upwards, the temperature conducted to the skin surface is reduced, and the physical therapy effect is seriously influenced, in addition, when the existing moxibustion device is used for vibration massage operation on the customer, the position of massage cannot be automatically changed, the smoke of the moxa roll cannot fully contact with the skin massage position, the physical therapy effect is greatly reduced, in addition, the existing device directly discharges the smoke of the moxa roll into the air, and the indoor air quality is seriously influenced;

2. a top plate, a temperature adjusting component, a moxibustion ash collecting component and a massage component are designed; when the moxibustion device is ready for operation, the lower end of a moxa stick is ignited, the moxa stick is downwards inserted into a moxibustion ash collecting component from a top plate, a power supply is arranged in the device to start supplying power, then a control button control device is controlled to start operating, the moxibustion ash collecting component fixes the upper part of the moxa stick, then a worker holds a first protection ring to attach the lower part of the device to the skin of a person to be treated with physical therapy by holding the first protection ring, downward pressure is applied to the first protection ring on a first connecting ring to enable the lower part of a massage component to be closely attached to the skin of the person to be treated with physical therapy, then the worker manually drives temperature adjusting components on the first limiting ring and a second limiting ring to operate, thereby controlling the size of airflow entering the device, further controlling the combustion degree of the moxa stick, further controlling the temperature of the skin of the person to be treated with physical therapy, and then the massage component vibrates the skin of the person to be treated with physical therapy in a reciprocating manner, meanwhile, the vibration position is indirectly changed to enhance the massage effect, meanwhile, smoke generated by burning of the moxa stick moves downwards to the surface of the skin to achieve the warm moxibustion effect, then the massage component filters the smoke of the moxa stick, the filtered smoke enters air from the massage component, and indoor hollow pollution can be reduced, in the process, dust generated by burning of the moxa stick is removed by the moxa ash collecting component through vibration and is collected at the same time, the moxa ash is prevented from falling downwards onto the skin of a person to be treated with physical therapy, and the fact that the moxa ash cannot flow out of the device in the process of moving the device by a worker is guaranteed;

3. when the moxa stick dust collector is used, the vibration position can be indirectly changed without a moving device, smoke is ensured to be fully contacted with the vibration position of skin, the smoke is filtered and then discharged, indoor air is prevented from being polluted, dust generated by moxa stick combustion is automatically removed and collected in time, the moxa stick dust is prevented from falling onto the skin of a person to be treated with physical therapy, meanwhile, the moxa stick dust can not flow out of the device in the process that a worker moves the device, the height of the moxa stick combustion position is kept unchanged, and therefore the temperature is ensured to be relatively stable.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of a portion of the present invention;

FIG. 3 is a schematic perspective view of a second embodiment of the present invention;

FIG. 4 is a schematic perspective view of a temperature adjustment assembly according to the present invention;

FIG. 5 is a top view of the temperature adjustment assembly of the present invention;

FIG. 6 is a perspective view of a moxa-moxibustion ash collection unit according to the present invention;

FIG. 7 is a top view of the moxibustion ash collection assembly of the present invention;

FIG. 8 is a schematic perspective view of a first receiving block according to the present invention;

fig. 9 is a perspective view of the massage assembly of the present invention;

fig. 10 is a perspective view of a first portion of the massage assembly of the present invention;

fig. 11 is a front view of a portion of the massage assembly of the present invention;

fig. 12 is a perspective view of a second portion of the massage assembly of the present invention;

fig. 13 is a perspective view of a third portion of the massage assembly of the present invention.

In the drawings above: 1: roof, temperature regulation subassembly, subassembly is collected to moxa-moxibustion ash, massage subassembly, 5: control button, 6: first guard ring, 7: first connecting ring, 8: first stop collar, 9: second stop collar, 201: first vent ring, 202: second vent ring, 203: first friction ring, 301: first motor, 302: first spline shaft, 303: first linkage block, 304: first electric putter, 305: first drive disk, 306: second transmission disc, 307: first electric slide rail, 308: first slider, 309: first link ring, 3010: first spring, 3011: first motorized clamp, 3012: second linkage block, 3013: third link block, 3014: first gag lever post, 3015: second spring, 3016: first stopper, 3017: first receiving block, 3018: first electric multi-stage telescopic rod, 3019: fourth linkage block, 3020: second stopper, 3021: first support frame, 3022: fourth connecting block, 3023: second support, 3024: first connecting rod, 401: first drive wheel, 402: second drive wheel, 403: first drive lever, 404: third transmission wheel, 405: fourth transmission wheel, 406: second driving lever, 407: third transmission disc, 408: fifth linkage block, 409: first lead screw, 4010: third spring, 4011: first connection block, 4012: first vent block, 4013: sixth linkage block, 4014: first linkage frame, 4015: first compact, 4016: second connecting block, 4017: third connecting block, 4018: first linkage rod, 4019: second gag lever post, 4020: third stopper, 4021: seventh linkage block, 4022: third gag lever post, 4023: fourth spring, 4024: first friction block, 4025: third vent ring, 4026: first rubber ring, 4027: first filter paper, 4028: and a third limit ring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Examples

A vibration moxibustion adjustable massager for health promotion is shown in figures 1-3, and comprises a top plate 1, a temperature adjusting component, a moxibustion ash collecting component, a massage component, a control button 5, a first protecting ring 6, a first connecting ring 7, a first spacing ring 8 and a second spacing ring 9; a moxibustion ash collecting component is arranged below the top plate 1; the upper surface of the top plate 1 is fixedly connected with a control button 5; the outer ring surface of the top plate 1 is fixedly connected with a first connecting ring 7; the middle lower part of the moxibustion ash collecting component is rotationally connected with the massage component; the upper part of the moxibustion ash collecting component is fixedly connected with the massage component; the outer ring surface of the upper part of the first connecting ring 7 is fixedly connected with a first protective ring 6; the lower part of the first connecting ring 7 is inserted with a first limit ring 8; a temperature adjusting component is arranged below the first limiting ring 8; the lower part of the temperature adjusting component is provided with a second limiting ring 9; the lower part of the temperature adjusting component is fixedly connected with the massage component; the temperature adjusting component can adjust the temperature; the moxibustion ash collecting component can collect the moxa stick ash and keep the temperature relatively stable; the massage component can massage the skin and simultaneously make the smoke fully contact with the skin.

When the moxibustion dust collector is ready for operation, the lower end of a moxa stick is ignited, the moxa stick is downwards inserted into a moxibustion dust collecting component from a top plate 1, a power supply is arranged in the moxibustion dust collector, then a control button 5 is operated to control the device to start operation, the upper part of the moxa stick is fixed by the moxibustion dust collecting component, then a worker holds a first protection ring 6 by hand to attach the lower part of the moxibustion dust collector to the skin of a person to be treated, downward pressure is applied to the first protection ring 6 on a first connecting ring 7 to enable the lower part of a massage component to be closely attached to the skin of the person to be treated, then the worker manually drives temperature adjusting components on a first limiting ring 8 and a second limiting ring 9 to operate, so that the size of air flow entering the device is controlled, the combustion degree of the moxa stick is controlled, the skin temperature of the person to be treated is controlled to be conducted, and then the skin of the person to be treated by the massage component vibrates back and forth, while indirectly changing the vibration position to enhance the massage effect, and simultaneously, the smoke generated by the burning of the moxa stick moves downwards to the surface of the skin to achieve the warm moxibustion effect, then the massage component filters the smoke of the moxa stick, the filtered smoke enters the air from the massage component to reduce the indoor hollow pollution, in the process, the dust generated by the burning of the moxa stick is removed by the moxa ash collection component through vibration and is collected to prevent the moxa ash from falling downwards to the skin of a person to be treated with physical therapy, and the moxa ash is ensured not to flow out of the device in the process of moving the device by a worker, when the moxa stick is burnt for a certain time, the position of the burning part of the moxa stick is raised to reduce the temperature conducted to the skin of the person to be treated with physical therapy, in the process, the moxa ash collection component drives the moxa stick to move downwards slowly, so that the height of the burning part of the moxa stick is kept unchanged, and further ensure that the temperature is relatively stable, when the moxa stick dust collector is used, the vibration position can be indirectly changed without a moving device, smoke is ensured to be fully contacted with the vibration position of skin, the smoke is filtered and then discharged, indoor air is prevented from being polluted, dust generated by moxa stick combustion is automatically removed and collected in time, the moxa stick dust is prevented from falling onto the skin of a person to be treated with physical therapy, meanwhile, the moxa stick dust can not flow out of the device in the process that a worker moves the device, the height of the moxa stick combustion position is kept unchanged, and therefore the temperature is ensured to be relatively stable.

As shown in fig. 4-5, the temperature adjustment assembly includes a first vent ring 201, a second vent ring 202, and a first friction ring 203; a first ventilation ring 201 is fixedly connected below the first limiting ring 8; a second vent ring 202 is connected below the first limit ring 8 in a sliding manner; the outer surface of the first ventilation ring 201 is rotatably connected with the second ventilation ring 202; the outer surface of the lower part of the first ventilation ring 201 is fixedly connected with a second limiting ring 9; the lower surface of the first ventilation ring 201 is fixedly connected with a massage component; the outer surface of the upper part of the second vent ring 202 is fixedly connected with a first friction ring 203; the lower surface of the second vent ring 202 is connected with the second limit ring 9 in a sliding way.

At first, light the moxa stick lower extreme, then insert downwards to the moxa-moxibustion ash from the through-hole at roof 1 middle part and collect the subassembly, the moxa-moxibustion ash is collected the subassembly and is fixed the back to moxa stick upper portion, the manual work removes the device to the assigned position, the staff rotates first friction ring 203, first friction ring 203 drives second air ring 202 and rotates, thereby control the size that first air ring 201 and second air ring 202 air vent overlap, and then the control enters into the size of the inside air current of device, and then the combustion degree of control moxa stick, and then the control conduction is to treating physiotherapy personnel skin temperature size.

As shown in fig. 6-8, the moxibustion ash collecting assembly includes a first motor 301, a first spline shaft 302, a first linkage block 303, a first electric push rod 304, a first drive disk 305, a second drive disk 306, a first electric slide rail 307, a first slider 308, a first linkage ring 309, a first spring 3010, a first electric clamp 3011, a second linkage block 3012, a third linkage block 3013, a first limit rod 3014, a second spring 3015, a first limit block 3016, a first accommodating block 3017, a first electric multi-stage expansion link 3018, a fourth linkage block 3019, a second limit block 3020, a first support frame 3021, a fourth connection block 3022, a second support frame 3023, and a first connection rod 3024; the lower surface of the front part of the top plate 1 is fixedly connected with a first support rack 3021; the lower surface of the front part of the top plate 1 is fixedly connected with a fourth connecting block 3022; the fourth connecting block 3022 is located at the rear side of the first support frame 3021; the upper part of the first support rack 3021 is fixedly connected with a first motor 301; the upper part of the first support rack 3021 is rotatably connected with a first spline shaft 302; the output end of the first motor 301 is fixedly connected with a first spline shaft 302; the upper part of the first support rack 3021 is fixedly connected with a first electric push rod 304; a first electric push rod 304 is positioned above the first spline shaft 302; the front part of the first electric push rod 304 is fixedly connected with a first support rack 3021; the lower part of the fourth connecting block 3022 is rotatably connected with the first spline shaft 302; the middle part of the fourth connecting block 3022 is fixedly connected with the first electric push rod 304; the outer surface of the first spline shaft 302 is rotationally connected with a first linkage block 303; a first driving disk 305 is fixedly connected to the outer surface of the middle part of the first spline shaft 302; the outer surface of the rear part of the first spline shaft 302 is fixedly connected with a second transmission disc 306; the outer surface of the first spline shaft 302 is fixedly connected with a massage component; the rear part of the first electric push rod 304 is fixedly connected with a first linkage block 303; the lower surface of the right part of the top plate 1 is fixedly connected with a second support rack 3023; the left side of the second support rack 3023 is fixedly connected with a first electric slide rail 307; a first accommodating block 3017 is fixedly connected to the lower part of the second support rack 3023; a first sliding block 308 is connected inside the first electric sliding rail 307 in a sliding manner; a first linkage ring 309 is fixedly connected to the left side of the first sliding block 308; two groups of first springs 3010 are fixedly connected to the inner annular surface of the first linkage ring 309; the first link ring 309 is slidably connected with two groups of first limiting rods 3014; two groups of second springs 3015 are fixedly connected to the lower surface of the first linkage ring 309; two groups of first springs 3010 are fixedly connected with a first electric clamp 3011 on the opposite side; the upper back part of the first electric clamp 3011 is fixedly connected with a second linkage block 3012; the upper front part of the first electric clamp 3011 is fixedly connected with a third link block 3013; a first limiting block 3016 is fixedly connected below the two groups of first limiting rods 3014; a first limiting block 3016 is fixedly connected below the two groups of second springs 3015; the inner side of the first accommodating block 3017 contacts the first limiting block 3016; a first connecting rod 3024 is fixedly connected to the lower surface of the left part of the top plate 1; a first electric multi-stage telescopic rod 3018 is fixedly connected to the right side of the lower part of the first connecting rod 3024; a fourth linkage block 3019 is fixedly connected to the right side of the first electric multi-stage telescopic rod 3018; the front side of the fourth linkage block 3019 is fixedly connected with a second limiting block 3020.

Firstly, the ignition end of the moxa stick is inserted downwards into the first electric clamp 3011, so that the ignition end of the moxa stick is located below the first storage block 3017, the first electric clamp 3011 fixes the upper part of the moxa stick, during the burning process, the first electric slide rail 307 on the second support 3023 drives the first slide block 308 to drive the first linkage ring 309 to move downwards, the first linkage ring 309 slides downwards on the two sets of first limiting rods 3014, the first linkage ring 309 compresses the two sets of second springs 3015, the first linkage ring 309 drives the components associated with the first linkage ring 309 to move downwards slowly, so that the moxa stick moves downwards slowly, the height of the burning position of the moxa stick is kept unchanged, so that the temperature is relatively stable, after the moxa stick burns for a certain time, a large amount of ash is accumulated on the lower part of the moxa stick, then the first electric slide rail 307 drives the first slide block 308 to drive the first linkage ring 309 to move upwards, so that the moxa stick moves upwards, so that the lower part of the moxa stick is located above the first storage block 3017, and the lower part of the moxa stick is higher than the second limiting block 3020, at the same time, the first link ring 309 drives the second spring 3015 to drive the first limiting block 3016 to move upwards, so that the first limiting block 3016 is separated from the first accommodating block 3017, and the height of the first limiting block 3016 is higher than that of the second limiting block 3020, at the same time, the first electric clamp 3011 drives the second link block 3012 and the third link block 3013 to move upwards, then the first electric multi-stage telescopic rod 3018 on the first connecting rod 3024 drives the fourth link block 3019 to move rightwards, so that the fourth link block 3019 drives the second limiting block 3020 to move right above the first accommodating block 3017, then the first electric push rod 304 drives the first link block 303 to drive the first spline shaft 302 to extend, so that the first spline shaft 302 drives the first drive disk 305 and the second drive disk 306 to move, so that the first drive disk 305 and the second drive disk 306 move right above the third link block 3013 and the second link block 3012, then, the first motor 301 on the first support rack 3021 drives the first spline shaft 302 to rotate, the first spline shaft 302 rotates inside the fourth connection block 3022, the first spline shaft 302 drives the massage assembly to operate, the first spline shaft 302 drives the first drive disk 305 and the second drive disk 306 to rotate, the first drive disk 305 and the second drive disk 306 eccentrically rotate, the first drive disk 305 and the second drive disk 306 indirectly push the third linkage block 3013 and the second linkage block 3012 to move, the third linkage block 3013 and the second linkage block 3012 indirectly drive the first electric clamp 3011 to move, with the cooperation of the two sets of first springs 3010, the first electric clamp 3011 slightly vibrates to vibrate the moxa stick, thereby separating out the ash at the lower part of the moxa stick, the moxa stick ash falls to the upper surface of the second limit block 3020, then slides from the upper surface of the second limit block 3020 to the inside the first accommodation block 3017, then the second limit 3020 moves back to the original position, then the first limit 3016 moves back to the original position, and the moxa stick ash can be collected when the moxa stick ash falls off, and the dust can be collected in the original position, thereby ensuring that the moxa stick ash can not be burned and the moxa stick collecting device can be burned.

As shown in fig. 9 to 13, the massage assembly includes a first driving wheel 401, a second driving wheel 402, a first driving rod 403, a third driving wheel 404, a fourth driving wheel 405, a second driving rod 406, a third driving disc 407, a fifth linkage block 408, a first lead screw 409, a third spring 4010, a first linkage block 4011, a first ventilation block 4012, a sixth linkage block 4013, a first linkage frame 4014, a first pressing block 4015, a second linkage block 4016, a third linkage block 4017, a first linkage rod 4018, a second limiting rod 4019, a third limiting block 4020, a seventh linkage block 4021, a third limiting rod 4022, a fourth spring 4023, a first friction block 4024, a third air ring 4025, a first rubber ring 4026, a first filter paper 4027, and a third limiting ring 4028; the middle part of the first support rack 3021 is rotatably connected with a first transmission rod 403; the outer surface of the rear part of the first transmission rod 403 is fixedly connected with a second transmission wheel 402; the outer surface of the front part of the first transmission rod 403 is fixedly connected with a third transmission wheel 404; the second transmission wheel 402 is connected with a first transmission wheel 401 through belt transmission; the first spline shaft 302 is fixedly connected inside the first driving wheel 401; the third driving wheel 404 is connected with a fourth driving wheel 405 through belt transmission; the lower part of the first support rack 3021 is rotatably connected with a second transmission rod 406; a second transmission rod 406 is fixedly connected inside the fourth transmission wheel 405; a third transmission disc 407 is fixedly connected to the rear side of the second transmission rod 406; a fifth linkage block 408 is contacted below the third transmission disc 407; a first screw rod 409 is fixedly connected below the fifth linkage block 408; a third spring 4010 is fixedly connected below the fifth linkage block 408; the outer surface of the upper part of the first screw rod 409 is connected with a first connecting block 4011 in a sliding way; the outer surface of the middle part of the first screw rod 409 is in transmission connection with a sixth linkage block 4013; the outer surface of the lower part of the first screw rod 409 is rotatably connected with a first linkage frame 4014; a first connecting block 4011 is fixedly connected below the third spring 4010; a first ventilating block 4012 is fixedly connected below the first connecting block 4011; a third vent ring 4025 is fixedly connected to the outer annular surface of the first vent block 4012; the lower surface of the first ventilating block 4012 is fixedly connected with a second connecting block 4016; the outer surface of the sixth linkage block 4013 is rotatably connected with a second connection block 4016; the outer surface of the lower part of the sixth linkage block 4013 is fixedly connected with two groups of seventh linkage blocks 4021; a plurality of groups of first press blocks 4015 are fixedly connected below the first linkage frame 4014; the side surface of the second connecting block 4016 is fixedly connected with a third connecting block 4017; the lower part of the third connecting block 4017 is fixedly connected with a first linkage rod 4018; the upper part of the third connecting block 4017 is fixedly connected with a third limiting block 4020; the outer surface of the first linkage rod 4018 is rotatably connected with a second limiting rod 4019; the upper part of the second limiting rod 4019 contacts the third limiting block 4020; two groups of third limiting rods 4022 are respectively connected in the two groups of seventh linkage blocks 4021 in a sliding manner; two groups of fourth springs 4023 are fixedly connected below the two groups of seventh linkage blocks 4021 respectively; a first friction block 4024 is fixedly connected below each of the two groups of third limiting rods 4022; a first friction block 4024 is fixedly connected below each group of fourth springs 4023; the lower part of the third vent ring 4025 is inserted with a first rubber ring 4026; a first filter paper 4027 is inserted into the inner ring surface of the third vent ring 4025; the inner ring surface of the third vent ring 4025 is fixedly connected with a third limit ring 4028.

Firstly, a worker attaches the lower part of the device to the skin of a person to be treated, namely, the lower part of the first rubber ring 4026 is in close contact with the skin of the person to be treated, smoke generated by burning moxa sticks flows into the skin surface of the person to be treated from the first ventilating block 4012, meanwhile, the temperature generated by burning moxa sticks is transmitted to the skin surface of the person to be treated from the first ventilating block 4012 so as to achieve the warm moxibustion effect, the smoke flows out of the device from the third ventilating ring 4025, in the process, the smoke is filtered by the first filter paper 4027 on the third limiting ring 4028, indoor air pollution is carried out, meanwhile, the moxibustion ash collection component drives the first driving wheel 401 to drive the second driving wheel 402 to rotate, the second driving wheel 402 drives the first driving rod 403 to drive the third driving wheel 404 to rotate, the third driving wheel 404 drives the fourth driving wheel 405 to drive the second driving rod 406 to rotate, and the second driving rod 406 drives the third driving disk 407 to rotate, the third transmission disc 407 eccentrically rotates, when the third transmission disc 407 rotates, the fifth linkage block 408 is extruded, so that the fifth linkage block 408 moves downwards, the fifth linkage block 408 drives the first screw rod 409 to slide downwards in the first connecting block 4011, the fifth linkage block 408 compresses the third spring 4010, the third transmission disc 407 continuously rotates, so that the third spring 4010 drives the fifth linkage block 408 to move upwards, so that the vertical reciprocating motion of the fifth linkage block 408 is realized, the fifth linkage block 408 drives the first screw rod 409 to vertically reciprocate, the first screw rod 409 drives the first linkage frame 4014 to vertically reciprocate, the first linkage frame 4014 drives a plurality of groups of first pressing blocks 4015 to vertically reciprocate, so that a plurality of groups of first pressing blocks 4015 massage and shake the skin, when the first screw rod 409 moves upwards, the first linkage frame 4014 moves upwards to contact with the first friction block 4024, meanwhile, upward pressure is applied to the first friction block 4024, the first friction block 4024 drives two sets of third limiting rods 4022 to slide upwards in two sets of seventh linkage blocks 4021 respectively, meanwhile, the first friction block 4024 compresses two sets of fourth springs 4023, meanwhile, the first lead screw 409 drives the sixth linkage block 4013 on the second connecting block 4016 to rotate, the sixth linkage block 4013 drives components associated with the sixth linkage block to rotate, the first friction block 4024 is made to rotate, under the action of friction force, the first friction block 4024 drives the first linkage frame 4014 to rotate, the first linkage frame 4014 drives a plurality of sets of first pressing blocks 4015 to perform circular motion, so that the positions of the plurality of sets of first pressing blocks 4015 are changed, the first linkage frame 4014 stirs the second limiting rod 4019 to swing on the first linkage rod 4018, then the first lead screw 409 moves downwards, the third limiting block 4020 on the third connecting block 4017 performs limiting motion on the second limiting rod 4019, the first linkage frame 4014 is made to contact with the second limiting rod 4019 when the first linkage frame 4014 to reverse the skin, the first linkage frame 4014 can not move back to the skin, the first linkage frame 4014 can not move back to the original position, and the first linkage frame can not be used for the smoke in situ massage device, the smoke in situ massage device, the smoke filtering device.

The first receiving block 3017 has a circular opening in the middle.

The moxa stick can be moved up and down in the opening of the first receiving block 3017.

The upper surface of the second limiting block 3020 is a conical surface, and the diameter of the lower surface of the second limiting block 3020 is larger than the diameter of the circular opening in the middle of the first accommodating block 3017.

When the second limiting block 3020 moves to a position right above the opening of the first accommodating block 3017, the moxibustion powder falls down onto the second limiting block 3020 and then slides into the first accommodating block 3017 from the inclined surface of the second limiting block 3020.

The first pressing block 4015 is made of rubber.

Can improve the massage effect.

The side of third vent ring 4025 is provided with a plurality of sets of vents.

The flue gas can be made to flow out of the device through the third vent ring 4025.

The technical principles of the embodiments of the present invention have been described above with reference to specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.

Claims

1. A health-care vibration moxibustion adjustable massager comprises a top plate (1), a first connecting ring (7), a first limiting ring (8) and a second limiting ring (9); the outer ring surface of the top plate (1) is connected with a first connecting ring (7); the lower part of the first connecting ring (7) is connected with a first limiting ring (8); the method is characterized in that: also comprises a temperature adjusting component, a moxibustion ash collecting component and a massage component; a moxibustion ash collecting component is arranged below the top plate (1); the middle lower part of the moxibustion ash collecting component is connected with the massage component; a temperature adjusting component is arranged below the first limiting ring (8); the lower part of the temperature adjusting component is provided with a second limiting ring (9); the lower part of the temperature adjusting component is connected with the massage component; the temperature adjusting component can adjust the temperature; the moxibustion ash collecting component can collect the moxa stick ash and keep the temperature relatively stable; the massage component can massage the skin and simultaneously make the smoke fully contact with the skin;

the temperature adjusting assembly comprises a first ventilation ring (201), a second ventilation ring (202) and a first friction ring (203); a first ventilation ring (201) is connected below the first limiting ring (8); a second ventilating ring (202) is connected below the first limiting ring (8); the outer surface of the first ventilation ring (201) is connected with the second ventilation ring (202); the outer surface of the lower part of the first ventilation ring (201) is connected with a second limiting ring (9); the lower surface of the first ventilation ring (201) is connected with a massage component; the outer surface of the upper part of the second vent ring (202) is connected with a first friction ring (203); the lower surface of the second vent ring (202) is connected with a second limit ring (9);

the moxibustion ash collecting component comprises a first motor (301), a first spline shaft (302), a first linkage block (303), a first electric push rod (304), a first drive disc (305), a second drive disc (306), a first electric slide rail (307), a first slide block (308), a first linkage ring (309), a first spring (3010), a first electric clamp (3011), a second linkage block (3012), a third linkage block (3013), a first limiting rod (3014), a second spring (3015), a first limiting block (3016), a first accommodating block (3017), a first electric multi-stage telescopic rod (3018), a fourth linkage block (3019), a second limiting block (3020), a first support frame (3021), a fourth connection block (3022), a second support frame (3023) and a first connection rod (3024); the lower surface of the front part of the top plate (1) is connected with a first support frame (3021); the lower surface of the front part of the top plate (1) is connected with a fourth connecting block (3022); the fourth connecting block (3022) is positioned at the rear side of the first support frame (3021); the upper part of the first support frame (3021) is connected with a first motor (301); the upper part of the first support frame (3021) is connected with a first spline shaft (302); the output end of the first motor (301) is connected with a first spline shaft (302); the upper part of the first support frame (3021) is connected with a first electric push rod (304); the first electric push rod (304) is positioned above the first spline shaft (302); the front part of the first electric push rod (304) is connected with a first support frame (3021); the lower part of the fourth connecting block (3022) is connected with the first spline shaft (302); the middle part of the fourth connecting block (3022) is connected with a first electric push rod (304); the outer surface of the first spline shaft (302) is connected with a first linkage block (303); the outer surface of the middle part of the first spline shaft (302) is connected with a first transmission disc (305); the outer surface of the rear part of the first spline shaft (302) is connected with a second transmission disc (306); the outer surface of the first spline shaft (302) is connected with a massage component; the rear part of the first electric push rod (304) is connected with a first linkage block (303); the lower surface of the right part of the top plate (1) is connected with a second support frame (3023); the left side of the second support frame (3023) is connected with a first electric slide rail (307); the lower part of the second support frame (3023) is connected with a first receiving block (3017); a first sliding block (308) is connected inside the first electric sliding rail (307); the left side of the first sliding block (308) is connected with a first linkage ring (309); two groups of first springs (3010) are connected to the inner ring surface of the first linkage ring (309); the first linkage ring (309) is connected with two groups of first limiting rods (3014); two groups of second springs (3015) are connected to the lower surface of the first linkage ring (309); the opposite sides of the two groups of first springs (3010) are connected with first electric clamps (3011); the upper back part of the first electric clamp (3011) is connected with a second linkage block (3012); the upper front part of the first electric clamp (3011) is connected with a third link block (3013); a first limiting block (3016) is connected below each two groups of first limiting rods (3014); a first limiting block (3016) is connected below the two groups of second springs (3015); the inner side of the first accommodating block (3017) contacts a first limiting block (3016); the lower surface of the left part of the top plate (1) is connected with a first connecting rod (3024); the right side of the lower part of the first connecting rod (3024) is connected with a first electric multi-stage telescopic rod (3018); the right side of the first electric multi-stage telescopic rod (3018) is connected with a fourth linkage block (3019); the front side of the fourth linkage block (3019) is connected with a second limiting block (3020);

the massage assembly comprises a first driving wheel (401), a second driving wheel (402), a first driving rod (403), a third driving wheel (404), a fourth driving wheel (405), a second driving rod (406), a third driving disc (407), a fifth linkage block (408), a first screw rod (409), a third spring (4010), a first connecting block (4011), a first ventilating block (4012), a sixth linkage block (4013), a first linkage frame (4014), a first pressing block (4015), a second connecting block (4016), a third connecting block (4017), a first linkage rod (4018), a second limiting rod (4019), a third limiting block (4020), a seventh linkage block (4021), a third limiting rod (4022), a fourth spring (4023), a first friction block (4024), a third air ring (4025), a first rubber ring (4026), first filter paper (4027) and a third limiting ring (4028); the middle part of the first support frame (3021) is connected with a first transmission rod (403); the outer surface of the rear part of the first transmission rod (403) is connected with a second transmission wheel (402); the outer surface of the front part of the first transmission rod (403) is connected with a third transmission wheel (404); the second transmission wheel (402) is connected with a first transmission wheel (401) through belt transmission; the first transmission wheel (401) is internally connected with a first spline shaft (302); the third driving wheel (404) is connected with a fourth driving wheel (405) through belt transmission; the lower part of the first support frame (3021) is connected with a second transmission rod (406); the inside of the fourth transmission wheel (405) is connected with a second transmission rod (406); a third transmission disc (407) is connected to the rear side of the second transmission rod (406); a fifth linkage block (408) is contacted below the third transmission disc (407); a first screw rod (409) is connected below the fifth linkage block (408); a third spring (4010) is connected below the fifth linkage block (408); the outer surface of the upper part of the first screw rod (409) is connected with a first connecting block (4011); the outer surface of the middle part of the first screw rod (409) is in transmission connection with a sixth linkage block (4013); the outer surface of the lower part of the first screw rod (409) is connected with a first linkage frame (4014); a first connecting block (4011) is connected below the third spring (4010); a first ventilation block (4012) is connected below the first connecting block (4011); the outer ring surface of the first ventilation block (4012) is connected with a third ventilation ring (4025); the lower surface of the first ventilation block (4012) is connected with a second connecting block (4016); the outer surface of the sixth linkage block (4013) is connected with a second connecting block (4016); the outer surface of the lower part of the sixth linkage block (4013) is connected with two groups of seventh linkage blocks (4021); a plurality of groups of first pressing blocks (4015) are connected below the first linkage frame (4014); the side surface of the second connecting block (4016) is connected with a third connecting block (4017); the lower part of the third connecting block (4017) is connected with a first linkage rod (4018); the upper part of the third connecting block (4017) is connected with a third limiting block (4020); the outer surface of the first linkage rod (4018) is connected with a second limiting rod (4019); the upper part of the second limiting rod (4019) contacts the third limiting block (4020); two groups of third limiting rods (4022) are respectively connected inside the two groups of seventh linkage blocks (4021); two groups of fourth springs (4023) are connected below the two groups of seventh linkage blocks (4021) respectively; a first friction block (4024) is connected below each group of third limiting rods (4022); the lower parts of the two groups of fourth springs (4023) are respectively connected with a first friction block (4024); the lower part of the third vent ring (4025) is connected with a first rubber ring (4026); the inner ring surface of the third vent ring (4025) is connected with first filter paper (4027); the inner ring surface of the third vent ring (4025) is connected with a third limit ring (4028).

2. The adjustable massager with vibration, warm moxibustion and health care functions as claimed in claim 1, which is characterized in that: the middle part of the first accommodating block (3017) is provided with a round opening.

3. The adjustable massager for vibration moxibustion for health care according to claim 1, which is characterized in that: the upper surface of the second limiting block (3020) is a conical surface, and the diameter of the lower surface of the second limiting block (3020) is larger than the diameter of the circular opening in the middle of the first accommodating block (3017).

4. The adjustable massager for vibration moxibustion for health care according to claim 1, which is characterized in that: the first pressing block (4015) is made of rubber.

5. The adjustable massager for vibration moxibustion for health care according to claim 1, which is characterized in that: a plurality of groups of vent holes are arranged on the side surface of the third vent ring (4025).